A compositional view comparing modern biological condensates and primitive phase‐separated compartments

Cannelli, Selene M. C.; Gupta, Ritvik; Nguyen, Tan; Poddar, Arunava; Sharma, Srishti; Vithole, Prachiti V.; Jia, Tony Z.

doi:10.1002/pep2.24331

Cited by 2 publications

(2 citation statements)

References 244 publications

(374 reference statements)

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“…Because of the high RNA-peptide LLPS propensity, coacervates have been proposed as a unique environment supporting co-evolution of those species (16). Current studies are now researching the impact of different environments as well as the polymer properties and lengths on the coacervation propensities (43) (44). The bigger construct used in our study, bPTC, is structurally more rigid and interacts with the rPeptides with higher specificity.…”

Section: Discussionmentioning

confidence: 98%

The interplay between peptides and RNA is critical for protoribosome compartmentalization and stability

Codispoti,

Yamaguchi,

Makarov

et al. 2024

Preprint

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The ribosome, owing to its exceptional conservation and biological importance, harbours a remarkable molecular fossil known as the protoribosome. It surrounds the peptidyl transferase center (PTC), responsible for peptide bond formation. While previous studies have demonstrated the PTC activity in RNA alone, our investigation reveals the intricate roles of the ribosomal protein fragments (rPeptides) within the ribosomal core. This research highlights the significance of rPeptides in stability and coacervation of two distinct protoribosomal evolutionary stages. The 617nt big protoribosome model which associates with rPeptides specifically, exhibits a structurally defined and rigid nature, further stabilised by the peptides. In contrast, the 136nt small model, previously linked to peptidyltransferase activity, displays greater structural flexibility. While this construct interacts with rPeptides with lower specificity, they induce coacervation of the small protoribosome across a wide concentration range, which is concomitantly dependent on the RNA sequence and structure. Moreover, these conditions protect RNA from degradation. This phenomenon suggests a significant evolutionary advantage in the RNA-protein interaction at the early stages of ribosome evolution. The distinct properties of the two protoribosomal stages suggest that rPeptides initially provided compartmentalization and prevented RNA degradation, preceding the emergence of specific RNA-protein interactions crucial for the ribosomal structural integrity.

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Section: Discussionmentioning

confidence: 98%

The interplay between peptides and RNA is critical for protoribosome compartmentalization and stability

Codispoti,

Yamaguchi,

Makarov

et al. 2024

Preprint

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show abstract

“…Upon hydration, Fox's proteinoids exhibit a remarkable ability to self-assemble into spherical vesicles. These microspherical membranes serve as a model for the formation of semi-permeable protocell structures from simple abiotic polypeptides [64][65][66][67][68][69].…”

Section: Membrane Assembly and Compositionmentioning

confidence: 99%

Proto-Neurons from Abiotic Polypeptides

Mougkogiannis,

Adamatzky

2024

Encyclopedia

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To understand the origins of life, we must first gain a grasp of the unresolved emergence of the first informational polymers and cell-like assemblies that developed into living systems. Heating amino acid mixtures to their boiling point produces thermal proteins that self-assemble into membrane-bound protocells, offering a compelling abiogenic route for forming polypeptides. Recent research has revealed the presence of electrical excitability and signal processing capacities in proteinoids, indicating the possibility of primitive cognitive functions and problem-solving capabilities. This review examines the characteristics exhibited by proteinoids, including electrical activity and self-assembly properties, exploring the possible roles of such polypeptides under prebiotic conditions in the emergence of early biomolecular complexity. Experiments showcasing the possibility of unconventional computing with proteinoids as well as modelling proteinoid assemblies into synthetic proto-brains are given. Proteinoids’ robust abiogenic production, biomimetic features, and computational capability shed light on potential phases in the evolution of polypeptides and primitive life from the primordial environment.

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A compositional view comparing modern biological condensates and primitive phase‐separated compartments

Cited by 2 publications

References 244 publications

The interplay between peptides and RNA is critical for protoribosome compartmentalization and stability

The interplay between peptides and RNA is critical for protoribosome compartmentalization and stability

Proto-Neurons from Abiotic Polypeptides

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